海洋抗癌膜二胺类化合物的QSAR及结构建模

Ankita Sharma, Deepak Teotia, S. Nandi
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引用次数: 4

摘要

基于海洋生物的药物发现研究是一个巨大的挑战。然而,缺乏设备和合格的人力资源是研究道路上的障碍。需要进行更深入的研究,特别是对深海天然产物的研究,以巩固海洋生物对未来药物发现的潜力的研究。整个药物发现过程包括海洋生物的采集、提取、分离、结构解析、生物分析和实验筛选以及临床试验,这是一个非常漫长的过程和巨大的挑战。因此,研究人员在设计和发现天然有效化合物衍生化的合成同源先导物方面付出了巨大的努力。因此,本研究尝试基于QSAR和分子对接的硅基高通量筛选,以设计和发现有前途的抗癌化合物,考虑到现有的海洋海绵来源的膜苯二胺类似物是对CDKs, Mek1, GSK 3β和CK1具有纳米摩尔活性的蛋白激酶抑制剂。它可以为设计和发现有前途的抗癌HMD化合物提供关键特征,这些化合物可以提出进一步的合成和测试。HMD类似物的QSAR和分子对接分析正在通过免费的开源软件进行,这在药物发现尝试中非常经济和有潜力。
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QSAR and Structure Based Modeling of Marine Derived Anticancer Hymenialdisine Compounds
Drug discovery research based on marine organisms is a big challenge. However, lack of facilities and competent human resources stand as a barrier on the way of research. More in-depth study especially on deep-sea natural products needs to be carried out to solidify the research on the potential for marine organisms to contribute to the future of drug discovery. The total drug discovery processes including collection of marine organisms, extraction, isolation, structure elucidation, biological assay and experimental screening as well as clinical trials is a very long journey and big challenge. Therefore, researchers pay a big attempt to design and discovery of synthetic congeneric leads by derivatizing the natural potent compounds. Therefore, In-silico High throughput screening based on QSAR and molecular docking has been attempted in the present study for the design and discovery of promising anticancer compounds considering existed marine sponge-derived hymenialdisine analogs which are protein kinase inhibitors having nanomolar activities against CDKs, Mek1, GSK 3β and CK1. It may crystallize crucial features for the design and discovery of promising anticancer HMD compounds which could be proposed for further synthesis and testing. QSAR and molecular docking analysis of HMD analogs are being carried out by freely accessible open source software which are very economical and potential in drug discovery attempt.
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